Difference between revisions of "Translations:Shunt/2/en"

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A shunt is a device that is put in [[Special:MyLanguage/Series and parallel|series]] in a circuit that enables current flow to be measured. A shunt will have a very low defined resistance that creates a small amount of [[Voltage drop|voltage drop]] from one side of the shunt to the other, which can be used to determine the amount of current that is flowing. It can be difficult to get an accurate measurement of the [[Special:MyLanguage/Energy storage#State of charge (SOC)|state of charge (SOC)]] of a battery bank just using voltage. A shunt is very useful in an off-grid PV system as it permits a charge controller to estimate the state of charge of a battery bank more accurately. The calculated state of charge is typically available to users via a battery or monitoring system to enable them to adjust their power consumption accordingly. In larger systems in which charge controllers, inverters, and generators are integrated, the information can also be used to control how the inverter and generator function. The most commonly used type of shunt is rated to up to 500 A and has a resistance of .0001 Ω (ohms) or 100 µΩ (microohms). This configuration will produce a voltage drop of 1 mV per 10 A of current.
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A shunt is a device that is put in [[Special:MyLanguage/Series and parallel connections|series]] in a circuit that enables current flow to be measured. A shunt will have a very low defined resistance that creates a small amount of [[Special:MyLanguage/Voltage drop|voltage drop]] from one side of the shunt to the other, which can be used to determine the amount of current that is flowing. It can be difficult to get an accurate measurement of the [[Special:MyLanguage/Energy storage#State of charge (SOC)|state of charge (SOC)]] of a battery bank just using voltage. A shunt is very useful in an off-grid PV system as it permits a charge controller to estimate the state of charge of a battery bank more accurately. The calculated state of charge is typically available to users via a battery or monitoring system to enable them to adjust their power consumption accordingly. In larger systems in which charge controllers, inverters, and generators are integrated, the information can also be used to control how the inverter and generator function. The most commonly used type of shunt is rated to up to 500 A and has a resistance of .0001 Ω (ohms) or 100 µΩ (microohms). This configuration will produce a voltage drop of 1 mV per 10 A of current.

Latest revision as of 17:39, 11 March 2021

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Message definition (Shunt)
A shunt is a device that is put in [[Special:MyLanguage/Series and parallel connections|series]] in a circuit that enables current flow to be measured. A shunt will have a very low defined resistance that creates a small amount of [[Special:MyLanguage/Voltage drop|voltage drop]] from one side of the shunt to the other, which can be used to determine the amount of current that is flowing. It can be difficult to get an accurate measurement of the [[Special:MyLanguage/Energy storage#State of charge (SOC)|state of charge (SOC)]] of a battery bank just using voltage. A shunt is very useful in an off-grid PV system as it permits a charge controller to estimate the state of charge of a battery bank more accurately. The calculated state of charge is typically available to users via a battery or monitoring system to enable them to adjust their power consumption accordingly. In larger systems in which charge controllers, inverters, and generators are integrated, the information can also be used to control how the inverter and generator function. The most commonly used type of shunt is rated to up to 500 A and has a resistance of .0001 Ω (ohms) or 100 µΩ (microohms). This configuration will produce a voltage drop of 1 mV per 10 A of current.
TranslationA shunt is a device that is put in [[Special:MyLanguage/Series and parallel connections|series]] in a circuit that enables current flow to be measured. A shunt will have a very low defined resistance that creates a small amount of [[Special:MyLanguage/Voltage drop|voltage drop]] from one side of the shunt to the other, which can be used to determine the amount of current that is flowing. It can be difficult to get an accurate measurement of the [[Special:MyLanguage/Energy storage#State of charge (SOC)|state of charge (SOC)]] of a battery bank just using voltage. A shunt is very useful in an off-grid PV system as it permits a charge controller to estimate the state of charge of a battery bank more accurately. The calculated state of charge is typically available to users via a battery or monitoring system to enable them to adjust their power consumption accordingly. In larger systems in which charge controllers, inverters, and generators are integrated, the information can also be used to control how the inverter and generator function. The most commonly used type of shunt is rated to up to 500 A and has a resistance of .0001 Ω (ohms) or 100 µΩ (microohms). This configuration will produce a voltage drop of 1 mV per 10 A of current.

A shunt is a device that is put in series in a circuit that enables current flow to be measured. A shunt will have a very low defined resistance that creates a small amount of voltage drop from one side of the shunt to the other, which can be used to determine the amount of current that is flowing. It can be difficult to get an accurate measurement of the state of charge (SOC) of a battery bank just using voltage. A shunt is very useful in an off-grid PV system as it permits a charge controller to estimate the state of charge of a battery bank more accurately. The calculated state of charge is typically available to users via a battery or monitoring system to enable them to adjust their power consumption accordingly. In larger systems in which charge controllers, inverters, and generators are integrated, the information can also be used to control how the inverter and generator function. The most commonly used type of shunt is rated to up to 500 A and has a resistance of .0001 Ω (ohms) or 100 µΩ (microohms). This configuration will produce a voltage drop of 1 mV per 10 A of current.